International audienceThis paper presents a physics based, computationally efficient compact modeling approach for 3D vertical gate-all-around junctionless nanowire transistor (JLNT) arrays designed for future high performance computational logic circuit. The model features an explicit continuous analytical form adapted for a 14 nm channel JLNT technology and has been validated against extensive characterization results on a wide range of JLNT geometry, depicting good accuracy. Finally, preliminary logic circuit simulations have been performed for benchmarking performances of transistor logic circuits, such as inverters and ring oscillators, designed using the developed model
In this letter, we derive an analytical model for trans-capacitances in Junctionless Nanowire Field ...
Channel length influence on the nanowire parameters and characteristics at different gate voltages f...
Silicon nanowires have received considerable attention as transistor components because they represe...
International audienceThis paper presents a physics based, computationally efficient compact modelin...
International audienceTo sustain transistor scaling beyond lateral 7nm devices, gate-all-around (GAA...
International audienceGate-all-around Vertical Nanowire Field Effect Transistors (VNWFET) are emergi...
International audienceGate-all-around Vertical Nanowire Field Effect Transistors (VNWFET) are emergi...
International audienceTo continue transistor downscaling beyond lateral 7nm devices, gate-all-around...
International audienceVertical Nanowire Junction-less Transistors (VN-WFET) are a promising technolo...
Inspired by recent experimental realizations and theoretical simulations of thin silicon nanowire-ba...
A silicon-based nanowire FET (SNWT) compact model is developed for circuit simulation. Starting from...
Nanowire field effect transistors (FETs) with multiple independent gates around a silicon channel fe...
A 3D model of silicon three gate nanowire junctionless transistor is developed in COMSOL Multiphysic...
International audienceThis paper presents the set of simulation means used to develop the concept of...
AbstractThis paper proposes a novel cylindrical double gate In0.53Ga0.47As vertical Nanowire n type ...
In this letter, we derive an analytical model for trans-capacitances in Junctionless Nanowire Field ...
Channel length influence on the nanowire parameters and characteristics at different gate voltages f...
Silicon nanowires have received considerable attention as transistor components because they represe...
International audienceThis paper presents a physics based, computationally efficient compact modelin...
International audienceTo sustain transistor scaling beyond lateral 7nm devices, gate-all-around (GAA...
International audienceGate-all-around Vertical Nanowire Field Effect Transistors (VNWFET) are emergi...
International audienceGate-all-around Vertical Nanowire Field Effect Transistors (VNWFET) are emergi...
International audienceTo continue transistor downscaling beyond lateral 7nm devices, gate-all-around...
International audienceVertical Nanowire Junction-less Transistors (VN-WFET) are a promising technolo...
Inspired by recent experimental realizations and theoretical simulations of thin silicon nanowire-ba...
A silicon-based nanowire FET (SNWT) compact model is developed for circuit simulation. Starting from...
Nanowire field effect transistors (FETs) with multiple independent gates around a silicon channel fe...
A 3D model of silicon three gate nanowire junctionless transistor is developed in COMSOL Multiphysic...
International audienceThis paper presents the set of simulation means used to develop the concept of...
AbstractThis paper proposes a novel cylindrical double gate In0.53Ga0.47As vertical Nanowire n type ...
In this letter, we derive an analytical model for trans-capacitances in Junctionless Nanowire Field ...
Channel length influence on the nanowire parameters and characteristics at different gate voltages f...
Silicon nanowires have received considerable attention as transistor components because they represe...